Electronic microarray screening of podocin mutations: a single-center study.

BACKGROUND: Because of resistance to immunosuppressants in nephrotic syndrome and reduction of proteinuria relapses following renal transplantation, it seems that new horizons have arisen from mutational screening of the podocin gene. The aim of this study was to assess electronic microarray screening of the podocin mutation. METHODS: Twelve previously identified podocin mutations were screened by the electronic microarray method in known DNA samples and in patients (aged 5 months-18 years, n = 38) with steroid-resistant primary nephrotic syndrome, isolated proteinuria, end-stage renal disease secondary to idiopathic nephrotic syndrome, and proteinuria relapses following renal transplantation. RESULTS: DNA samples previously supplied to define the mutation profile for analysis and which were used as controls were completely and correctly detected by this method. None of the 12 mutations was detected in our patients. The duration of analysis for one mutation, including hybridization, was only 30 min for 38 cases. CONCLUSION: Electronic microarray screening for NPHS2 mutations is not only rapid but also accurate. Previous identification of the mutation profile most often encountered in the investigated population is needed, however.

Sugar transport systems of Bifidobacterium longum NCC2705.

Here we present the complement of the carbohydrate uptake systems of the strictly anaerobic probiotic Bifidobacterium longum NCC2705. The genome analysis of this bacterium predicts that it has 19 permeases for the uptake of diverse carbohydrates. The majority belongs to the ATP-binding cassette transporter family with 13 systems identified. Among them are permeases for lactose, maltose, raffinose, and fructooligosaccharides, a commonly used prebiotic additive. We found genes that encode a complete phosphotransferase system (PTS) and genes for three permeases of the major facilitator superfamily. These systems could serve for the import of glucose, galactose, lactose, and sucrose. Growth analysis of NCC2705 cells combined with biochemical characterization and microarray data showed that the predicted substrates are consumed and that the corresponding transport and catabolic genes are expressed. Biochemical analysis of the PTS, in which proteins are central in regulation of carbon metabolism in many bacteria, revealed that B. longum has a glucose-specific PTS, while two other species (Bifidobacterium lactis and Bifidobacterium bifidum) have a fructose-6-phosphate-forming fructose-PTS instead. It became obvious that most carbohydrate systems are closely related to those from other actinomycetes, with a few exceptions. We hope that this report on B. longum carbohydrate transporter systems will serve as a guide for further in-depth analyses on the nutritional lifestyle of this beneficial bacterium.